Profile

基本信息

刘洋（Gavin, Yang Liu），男，1991年出生，博士、华侨大学土木工程学院副教授、硕士研究生导师。福建省引进高层次人才（境外C类），厦门市高层次人才（C类），厦门市高层次留学人员。主要从事动力荷载（地震，风，浪）时频特征对结构响应的影响及规律表征，结构动力响应物数驱动智能预测，海洋基础设施服役状态智能评估与预测等。主持国家自然科学基金青年项目、福建省自然科学基金面上项目、华侨大学中青年教师科技创新资助项目、华侨大学高层次人才启动项目各1项。在业内高水平学术期刊 Computer-Aided Civil and Infrastructure Engineering, Earthquake Engineering & Structural Dynamics,  ASCE- Journal of Structural Engineering, Bulletin of Earthquake Engineering, Engineering Structures ，建筑结构学报，工程力学等刊物发表SCI/EI 论文30余篇。

 

联系方式

邮箱：yliubp@hqu.edu.cn; yliubp@connect.ust.hk

电话：18659226695 （微信同号）

通讯地址：福建省厦门市集美区华侨大学土木学科大楼502#

招生信息：2026年招收2~3名结构工程、防灾减灾工程及土木水利工程硕士(学硕或专硕)，诚挚欢迎感兴趣的的同学通过微信，邮件等方式联系、咨询和报考。

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 学历背景

2015.9-2018.7，香港科技大学土木及环境工程学系，结构工程，哲学博士

2013.9-2015.8，香港科技大学土木及环境工程学系，结构工程，哲学硕士

2009.9-2013.6，武汉大学，水利水电工程学院，水利水电工程，工学学士

工作经历

2018.9 - 2019.9 香港纳米及先进材料研发院，研发工程师

2019.9 -  今    华侨大学，土木工程学院，副教授

科研项目

国家自然科学基金青年项目（52108454）：基于深度学习的考虑地震波时频域特征影响选波法的研究。主持

福建省自然科学基金面上项目 （2021J01284）：新型短槽式建筑石材幕墙抗震性能研究。主持

厦门市自然科学基金面上项目（3502Z20257304）：面向海上光伏支架的智能损伤监测与诊断技术研究。主持

华侨大学高层次人才科研启动项目（20191XD042）：基于模态地震波选择法的框架剪力墙结构弹塑性地震反应分析研究。主持

华侨大学中青年教师科技创新资助项目（ZQN-1011）：物理增强的智能化人工地震动合成方法研究。主持

教改项目

华侨大学精品在线课程建设项目《结构抗震设计》。主持

学术论文

[1] Liu, Y., Feng J., Miao, Y., Hou, W.* (2026). Rapid structural seismic response prediction using physics-informed inputs and scientific training strategies. Soil Dynamics and Earthquake Engineering. (Accepted)

[2] 郭子雄，谢鑫尧，纪梦雨，刘洋*. (2026) 考虑约束边界影响的石材幕墙单元面内变形性能试验研究. 建筑结构学报. （录用待刊）

[3] Kang, H., Guo, Z., Miao, Y., Liu, Y.*, Wang, C.(2025). A novel response-oriented ground motion selection method based on Siamese convolutional neural network. Journal of Building Engineering, 113, 1.13967.

[4] Liu, Y., Kang, H., Guo, Z.*, Wang, C., Miao, Y. (2025). A CNN-based ground motion selection method considering the impact of frequency and time characteristics of ground motions. ASCE-Journal of Structural Engineering, 151(4), 04025026.

[5] Miao, Y., Kang, H., Hou, W,. Liu, Y.*, Zhang, Y., Wang, C. (2024). A response-compatible ground motion generation method using physics‐guided neural networks. Computer-Aided Civil and Infrastructure Engineering, 39(15), 2350-2366.

[6] Liu, Y., Zhang, W., Zhou, M.*, Hou, W.*, and Zhang, Y. (2023). Punching shear performance of star-shaped steel plates reinforced RC slab-column connections. Case Studies in Construction Materials, 19, e02570.

[7] 康昊，郭子雄，刘洋*，侯也婷. (2023). 基于CNN的考虑地震波时频特征影响选波方法研究. 工程力学.（DOI: 10.6052/j.issn.1000-4750.2023.05.0348）

[8] Huang, Q., Liu, Y.*, Tian, L. (2023). Seismic performance of the shear-deficient exterior RC beam-column joints strengthened with PHSW. Engineering Structures, 275, 115309.

[9] 刘洋, 刘阳*, 田颖, 黄群贤, 张艺欣. (2022). 喷涂聚氨酯弹性体加固砌体墙抗震性能试验研究. 工程力学, 40, 1-10.

[10] Liu, Y.*, Huang, Q., Liu, Y., Guo, Z., Kang, H., Wang, X. (2022). Modal-based ground motion selection procedure for nonlinear response time history analysis of dual wall-frame structures. Bulletin of Earthquake Engineering, 1-29.

[11] Liu, Y.* (2021). Modal-Based Ground Motion Selection Method for the Nonlinear Response Time History Analysis of Reinforced Concrete Shear Wall Structures. Applied Sciences, 11(17), 8230.

[12] Liu, Y.*, Kuang, J. S., Huang, Q., Guo, Z., Wang, X. (2020r). Spectrum-based pushover analysis for the quick seismic demand estimation of reinforced concrete shear walls. Structures, 27, 1490-1500.

[13] Liu, Y., Kuang, J. S.*, Yuen, T. Y. (2020). Modal‐based ground motion selection procedure for nonlinear response time history analysis of high‐rise buildings. Earthquake Engineering & Structural Dynamics, 49(1), 95-110.

[14] Liu, Y., Kuang, J. S.* (2019). Estimating seismic demands of singly symmetric buildings by spectrum-based pushover analysis. Bulletin of Earthquake Engineering, 17, 2093-2113.

[15] Liu, Y., Kuang, J. S.*, Huang, Q. (2018). Extended spectrum-based pushover analysis for predicting earthquake-induced forces in tall buildings. Engineering Structures, 167, 351-362.

[16] Liu, Y., Kuang, J. S.*, Huang, Q. (2018). Modified spectrum-based pushover analysis for estimating seismic demand of dual wall-frame systems. Engineering Structures, 165, 302-314.

[17] Liu, Y., Kuang, J. S.*, Chan, B. Y. B. (2018). Flexural behaviour of fibre-reinforced polymer–aluminium sandwich curtain walls. Journal of Sandwich Structures & Materials, 20(7), 783-810.

[18] Liu, Y., Kuang, J. S.* (2017). Spectrum-based pushover analysis for estimating seismic demand of tall buildings. Bulletin of Earthquake Engineering, 15, 4193-4214.

[19] Hou, W.*,  Chen, W., Wang, Z., Liu, Y., Zhang, Y., Liu, Y. (2025). Axial Compressive Behavior of Seawater–Sea Sand Concrete Columns Confined with GFRP Stirrups. Journal of Composites for Construction, 29(5): 04025035.

[20] Zhang, Y., Zhang, Q., Xu, L., Hou, W.*, Miao, Y., Liu, Y., Huang, B. (2025). Transfer learning for intelligent design of lightweight Strain-Hardening Ultra-High- Performance Concrete (SH-UHPC). Automation in Construction, 175: 106241.

[21] Huang, Q., Liu, Y., Guo, Z., Ju, J. (2025). Flexural fatigue strength of RC bridge girders strengthened by PHSW-PM. Engineering Structures, 338, 120640.

[22] Guo, Z., Hou, W.*, Yao, H., Liu, Y., Zhang, Y.(2024). Dynamic responses of monopile offshore wind turbines under different wind-wave misalignment angles. Structures, 69: 107454.

[23] Huang, J., Hou, W., Li, Z., Liu, Y., Zhang, Y.* (2024). Enhancing the interfacial bond performance of engineered cementitious composites and concrete. Advances in Structural Engineering, 13694332241252275.

[24] 黄群贤*，林聪颖，刘洋，黄军.(2024).功能可恢复强脊框架结构抗震性能研究.振动与冲击(06),1-10. doi:10.13465/j.cnki.jvs.2024.06.001.

[25] Zhong, P. J., Zhang, Y. X., Liu, Y.*, Liu, Y. (2023). Testing and analytical modeling the lateral behavior of precast columns with a novel column-to-column connection. Journal of Building Engineering, 78, 107595.

[26] Yang, S., Guo, Z., Ye, Y.*, Liu, Y. (2023). Experimental and Numerical Study on the Shear Performance of the Stone Panel–Panel Joint in Stone Cladding. Buildings, 13, 3079.

[27] Lu, Y., Guo, Z.*, Basha, S. H., Liu, Y. (2022). Performance of steel beams with replaceable buckling restrained fuses under cyclic loading. Journal of Constructional Steel Research, 194, 107310.

[28] 黄群贤*, 刘洋, 施明峰. (2022). CFRP 环包加固 RC 梁柱边节点抗震性能试验研究. 建筑结构学报, 43(8), 76.

[29] 张艺欣，刘阳*，阮杰，刘洋，钟沛杰，任彧. (2022). 装配式核心钢管混凝土柱抗震性能试验研究. 建筑结构学报, 43(12), 135.

[30] 杨士萱，郭子雄，叶勇，刘洋. (2021). 短槽式石材幕墙挂装节点受力性能研究. 建筑材料学报.

[31] Yuen, T. Y.*, Halder, R., Chen, W. W., Zhou, X., Deb, T., Liu, Y., Tseng, Y. Wen, T. H. (2020). DFEM of a post-tensioned precast concrete segmental bridge with unbonded external tendons subjected to prestress changes. Structures, 28, 1322-1337.

[32] Yuen, T. Y.*, Deb, T., Zhang, H., Liu, Y. (2019). A fracture energy based damage-plasticity interfacial constitutive law for discrete finite element modelling of masonry structures. Computers & Structures, 220, 92-113.

专利

[1] 刘洋；冯嘉旗；侯炜；戴娟，海上光伏支架结构状态的诊断方法、系统、装置及介质，发明专利，CN120409145B.

[2] 冯嘉旗；侯炜；刘洋；王文杰；戴娟，石结构引水渠的健康诊断方法、系统及存储介质，发明专利，CN120744382B.

[3] 刘洋;苗有水;侯炜;康昊, 人工地震波生成方法、设备及存储介质, 发明专利，CN117332703B.

[4] 刘洋; 康昊; 郭子雄, 地震波分类模型的训练方法、地震选波方法、设备及介质，发明专利，CN116776208B.

[5] 刘洋；杨士萱；郭子雄，一种地震影响下石材幕墙面板的平面内位移响应分析方法，发明专利，CN115374668B.

获奖信息

the Finalist of HKIE Structural Division Structural Excellence Award 2019

第六届全国青年教师混凝土教学比赛三等奖

华侨大学土木工程学院第十二届青年教师“精彩一堂课”一等奖